Certification Course in 2W EV Design & Modeling with SOLIDWORKS
The “Certification Program in Electric Vehicle Modeling and Design with SOLIDWORKS” offers a comprehensive guide to designing a two-wheeler using SolidWorks. You’ll start by mastering the basics of 3D modeling and gradually move on to designing key components like the frame, suspension, swing arm, wheels, motor controller casing, and steering system. The course emphasizes integration and assembly, ensuring all parts fit and function cohesively. By the end, you’ll have a fully designed, production-ready two-wheeler, equipped with the skills to create complex models in SolidWorks.
Course Curriculum
Welcome to the Course!
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Module 1: Introduction and Basics
Module 2: Chassis/Frame and Suspension Design
Module 3: Swing Arm Design
Module 4: Wheel Design
Module 5: Motor Controller Casing, Battery Pack and Steering Designing
Module 6: Integration and Assembly
Module 7: Final Assembly and Details
DIY Projects:
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Hardware & Software Required
Hardware: A computer with a robust processor (preferably Intel i5 or AMD Ryzen 5 and above), at least 8 GB RAM for smooth operation of SOLIDWORKS.
Software: SOLIDWORKS (preferably the latest version), compatible operating system (Windows 10 or later).
DIY Projects Included
Project 1: 2W Electric Vehicle (EV) Bike Design using SOLIDWORKS
To design and model a functional 2W electric vehicle (EV) bike using SOLIDWORKS, incorporating all essential components such as frame, wheels, suspension, motor, and battery casing. This project will enable students to gain hands-on experience with SOLIDWORKS, covering both individual part design and assembly processes.
Course Benefits
For Professionals:
- Enhance expertise in EV bike design and modeling using SOLIDWORKS.
- Broaden career prospects with specialized knowledge in chassis, suspension, and component design.
- Stay updated with the latest design and simulation tools in the EV industry.
For Freshers:
- Acquire in-demand skills for a career in EV bike design and modeling.
- Build a strong foundation in SOLIDWORKS for designing key EV components.
- Increase employability with hands-on project experience and industry-relevant knowledge.
Technical expertise you will gain
Technical Expertise: Develop a comprehensive understanding of EV modeling using SOLIDWORKS, focusing on key components and assembly.
Chassis and Suspension Design: Master the parameters, key components, and design process of chassis and suspension systems for EV bikes.
Swingarm and Alloy Wheel Design: Gain expertise in designing swingarm and alloy wheels, utilizing 2D drawing features in SOLIDWORKS.
Tire and Motor Controller Design: Learn to design and assemble tires, swingarms, motor controllers, and DC to DC converters for EV bikes.
Handlebar and Final Assembly: Develop skills in designing handlebars, assembling parts, and integrating components into a final EV bike assembly.
Simulation and Analysis: Perform comprehensive design and analysis of EV bike components and systems using SOLIDWORKS.
Industry Readiness: Be prepared for various roles in the EV industry with a comprehensive skill set in SOLIDWORKS modeling and design.
Career Readiness: Be prepared for various roles in engineering and technology with a comprehensive understanding of EV bike design and modeling.
- EV Bike Chassis Design
- Suspension System Design
- Swingarm and Alloy Wheel Design
- Tire and Motor Controller Design
- Handlebar and Final Assembly Design
- EV Component Modeling and Simulation
- EV Bike Chassis Designer
- Suspension System Engineer
- Swingarm and Alloy Wheel Designer
- Tire and Motor Controller Engineer
- Handlebar and Final Assembly Engineer
- SOLIDWORKS Modeler and Simulation Specialist
- Proficiency in SOLIDWORKS for EV bike modeling and design.
- Expertise in chassis and suspension system design.
- Ability to design swingarms and alloy wheels.
- Skills in tire fitting and motor controller design.
- Competence in final assembly and aesthetic integration of EV bikes.
- Knowledge of simulation and analysis using SOLIDWORKS.
- Hero MotoCorp
- Bajaj Auto
- TVS Motor Company
- Ather Energy
- Ola Electric
- Ultraviolette Automotive
- Revolt Motors
- Tork Motors
- Lohia Auto
- Ampere Vehicles
Who can take this course?
The Learners should have an optional fundamental understanding of engineering design principles and mechanical systems.
- Freshers
- Professionals
Personalized Trainer Support Portal:
- 24/7 Access to a personalized trainer support portal.
- One-on-One Mentorship for queries and project guidance.
- Access to diverse resources, including recorded lectures, reading materials, and practical guides.
- Dedicated forums for content discussion, insights, and project collaboration.
- Regular Feedback from trainers for comprehensive understanding and improvement.
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